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        Module&nbsp;physcon
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<h1 class="epydoc">Source Code for <a href="SatStress.physcon-module.html">Module SatStress.physcon</a></h1>
<pre class="py-src">
<a name="L1"></a><tt class="py-lineno">  1</tt>  <tt class="py-line"><tt class="py-docstring">"""</tt> </tt>
<a name="L2"></a><tt class="py-lineno">  2</tt>  <tt class="py-line"><tt class="py-docstring">A Python dictionary of physical constants in SI units.</tt> </tt>
<a name="L3"></a><tt class="py-lineno">  3</tt>  <tt class="py-line"><tt class="py-docstring"></tt> </tt>
<a name="L4"></a><tt class="py-lineno">  4</tt>  <tt class="py-line"><tt class="py-docstring">Values are from U{CODATA 2006 &lt;http://www.physics.nist.gov/cuu/Constants/&gt;}</tt> </tt>
<a name="L5"></a><tt class="py-lineno">  5</tt>  <tt class="py-line"><tt class="py-docstring"></tt> </tt>
<a name="L6"></a><tt class="py-lineno">  6</tt>  <tt class="py-line"><tt class="py-docstring">Each item in the dictionary consists of a string key, and a list value, </tt> </tt>
<a name="L7"></a><tt class="py-lineno">  7</tt>  <tt class="py-line"><tt class="py-docstring">containing the following:</tt> </tt>
<a name="L8"></a><tt class="py-lineno">  8</tt>  <tt class="py-line"><tt class="py-docstring">    - description (string)</tt> </tt>
<a name="L9"></a><tt class="py-lineno">  9</tt>  <tt class="py-line"><tt class="py-docstring">    - symbol (string)</tt> </tt>
<a name="L10"></a><tt class="py-lineno"> 10</tt>  <tt class="py-line"><tt class="py-docstring">    - value (float)</tt> </tt>
<a name="L11"></a><tt class="py-lineno"> 11</tt>  <tt class="py-line"><tt class="py-docstring">    - sd (float)</tt> </tt>
<a name="L12"></a><tt class="py-lineno"> 12</tt>  <tt class="py-line"><tt class="py-docstring">    - relative sd (float)</tt> </tt>
<a name="L13"></a><tt class="py-lineno"> 13</tt>  <tt class="py-line"><tt class="py-docstring">    - value(sd) unit (string)</tt> </tt>
<a name="L14"></a><tt class="py-lineno"> 14</tt>  <tt class="py-line"><tt class="py-docstring">    - source (string)</tt> </tt>
<a name="L15"></a><tt class="py-lineno"> 15</tt>  <tt class="py-line"><tt class="py-docstring"></tt> </tt>
<a name="L16"></a><tt class="py-lineno"> 16</tt>  <tt class="py-line"><tt class="py-docstring">Copyright 2004, 2007 U{Herman J.C. Berendsen &lt;www.hjcb.nl/python&gt;}</tt> </tt>
<a name="L17"></a><tt class="py-lineno"> 17</tt>  <tt class="py-line"><tt class="py-docstring">U{herman@hjcb.nl &lt;mailto:herman@hjcb.nl&gt;}.</tt> </tt>
<a name="L18"></a><tt class="py-lineno"> 18</tt>  <tt class="py-line"><tt class="py-docstring"></tt> </tt>
<a name="L19"></a><tt class="py-lineno"> 19</tt>  <tt class="py-line"><tt class="py-docstring">This program is free software: you can redistribute it and/or modify it under</tt> </tt>
<a name="L20"></a><tt class="py-lineno"> 20</tt>  <tt class="py-line"><tt class="py-docstring">the terms of the GNU General Public License as published by the Free Software</tt> </tt>
<a name="L21"></a><tt class="py-lineno"> 21</tt>  <tt class="py-line"><tt class="py-docstring">Foundation, either version 3 of the License, or (at your option) any later</tt> </tt>
<a name="L22"></a><tt class="py-lineno"> 22</tt>  <tt class="py-line"><tt class="py-docstring">version. See U{http://www.gnu.org/licenses/gpl.txt &lt;http://www.gnu.org/licenses/gpl.txt&gt;}.</tt> </tt>
<a name="L23"></a><tt class="py-lineno"> 23</tt>  <tt class="py-line"><tt class="py-docstring"></tt> </tt>
<a name="L24"></a><tt class="py-lineno"> 24</tt>  <tt class="py-line"><tt class="py-docstring">This program is distributed in the hope that it will be useful, but WITHOUT ANY</tt> </tt>
<a name="L25"></a><tt class="py-lineno"> 25</tt>  <tt class="py-line"><tt class="py-docstring">WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A</tt> </tt>
<a name="L26"></a><tt class="py-lineno"> 26</tt>  <tt class="py-line"><tt class="py-docstring">PARTICULAR PURPOSE.  See the GNU General Public License for more details.</tt> </tt>
<a name="L27"></a><tt class="py-lineno"> 27</tt>  <tt class="py-line"><tt class="py-docstring">"""</tt> </tt>
<a name="L28"></a><tt class="py-lineno"> 28</tt>  <tt class="py-line"><tt class="py-name">__author__</tt>    <tt class="py-op">=</tt> <tt class="py-string">"Herman J.C. Berendsen"</tt> </tt>
<a name="L29"></a><tt class="py-lineno"> 29</tt>  <tt class="py-line"><tt class="py-name">__contact__</tt>   <tt class="py-op">=</tt> <tt class="py-string">"herman@hjcb.nl"</tt> </tt>
<a name="L30"></a><tt class="py-lineno"> 30</tt>  <tt class="py-line"><tt class="py-name">__license__</tt>   <tt class="py-op">=</tt> <tt class="py-string">"GNU General Public License version 3"</tt> </tt>
<a name="L31"></a><tt class="py-lineno"> 31</tt>  <tt class="py-line"><tt class="py-name">__copyright__</tt> <tt class="py-op">=</tt> <tt class="py-string">"Copyright 2004, 2007 Herman J.C. Berendsen"</tt> </tt>
<a name="L32"></a><tt class="py-lineno"> 32</tt>  <tt class="py-line"> </tt>
<a name="L33"></a><tt class="py-lineno"> 33</tt>  <tt class="py-line"><tt class="py-comment"># physcon Physical constants</tt> </tt>
<a name="L34"></a><tt class="py-lineno"> 34</tt>  <tt class="py-line"><tt class="py-comment"></tt><tt class="py-comment"># Note: type physcon.help() (after import physcon)</tt> </tt>
<a name="L35"></a><tt class="py-lineno"> 35</tt>  <tt class="py-line"><tt class="py-comment"></tt> </tt>
<a name="L36"></a><tt class="py-lineno"> 36</tt>  <tt class="py-line"><tt class="py-keyword">from</tt> <tt class="py-name">math</tt> <tt class="py-keyword">import</tt> <tt id="link-0" class="py-name" targets="Variable SatStress.physcon.pi=SatStress.physcon-module.html#pi"><a title="SatStress.physcon.pi" class="py-name" href="#" onclick="return doclink('link-0', 'pi', 'link-0');">pi</a></tt> </tt>
<a name="L37"></a><tt class="py-lineno"> 37</tt>  <tt class="py-line"> </tt>
<a name="L38"></a><tt class="py-lineno"> 38</tt>  <tt class="py-line"><tt class="py-comment"># define light velocity, because we need it in calculations</tt> </tt>
<a name="L39"></a><tt class="py-lineno"> 39</tt>  <tt class="py-line"><tt class="py-comment"></tt><tt id="link-1" class="py-name" targets="Variable SatStress.physcon.cloc=SatStress.physcon-module.html#cloc"><a title="SatStress.physcon.cloc" class="py-name" href="#" onclick="return doclink('link-1', 'cloc', 'link-1');">cloc</a></tt> <tt class="py-op">=</tt> <tt class="py-number">299792458.</tt> </tt>
<a name="L40"></a><tt class="py-lineno"> 40</tt>  <tt class="py-line"> </tt>
<a name="L41"></a><tt class="py-lineno"> 41</tt>  <tt class="py-line"><tt id="link-2" class="py-name" targets="Variable SatStress.physcon.all=SatStress.physcon-module.html#all"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-2', 'all', 'link-2');">all</a></tt><tt class="py-op">=</tt><tt class="py-op">{</tt><tt class="py-string">'lightvel'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'velocity of light in vacuum'</tt><tt class="py-op">,</tt><tt class="py-string">'c'</tt><tt class="py-op">,</tt><tt id="link-3" class="py-name"><a title="SatStress.physcon.cloc" class="py-name" href="#" onclick="return doclink('link-3', 'cloc', 'link-1');">cloc</a></tt><tt class="py-op">,</tt><tt class="py-number">0.</tt><tt class="py-op">,</tt> <tt class="py-number">0.</tt><tt class="py-op">,</tt><tt class="py-string">'299 792 458(ex) m/s'</tt><tt class="py-op">,</tt> <tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L42"></a><tt class="py-lineno"> 42</tt>  <tt class="py-line">     <tt class="py-string">'planck'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">"Planck's constant"</tt><tt class="py-op">,</tt><tt class="py-string">'h'</tt><tt class="py-op">,</tt><tt class="py-number">6.62606896e-34</tt><tt class="py-op">,</tt><tt class="py-number">3.3e-41</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'6.626 068 96(33) e-34 J s'</tt><tt class="py-op">,</tt> <tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L43"></a><tt class="py-lineno"> 43</tt>  <tt class="py-line">     <tt class="py-string">'dirac'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">"Dirac's constant = h/(2 pi)"</tt><tt class="py-op">,</tt><tt class="py-string">'hbar'</tt><tt class="py-op">,</tt><tt class="py-number">1.054571628e-34</tt><tt class="py-op">,</tt><tt class="py-number">5.3e-42</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.054 571 628(53) e-34 J s'</tt><tt class="py-op">,</tt> <tt class="py-string">'CODATA 2006 '</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L44"></a><tt class="py-lineno"> 44</tt>  <tt class="py-line">     <tt class="py-string">'magn-const'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'magnetic permeability of vacuum'</tt><tt class="py-op">,</tt><tt class="py-string">'mu_0'</tt><tt class="py-op">,</tt><tt class="py-number">4e-7</tt><tt class="py-op">*</tt><tt id="link-4" class="py-name"><a title="SatStress.physcon.pi" class="py-name" href="#" onclick="return doclink('link-4', 'pi', 'link-0');">pi</a></tt><tt class="py-op">,</tt><tt class="py-number">0.</tt><tt class="py-op">,</tt><tt class="py-number">0.</tt><tt class="py-op">,</tt><tt class="py-string">'1.256 637 061... e-6 N A^-2'</tt><tt class="py-op">,</tt><tt class="py-string">''</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L45"></a><tt class="py-lineno"> 45</tt>  <tt class="py-line">     <tt class="py-string">'elec-const'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'dielectric permittivity of vacuum'</tt><tt class="py-op">,</tt><tt class="py-string">'eps_0'</tt><tt class="py-op">,</tt><tt class="py-number">1.e7</tt><tt class="py-op">/</tt><tt class="py-op">(</tt><tt class="py-number">4</tt><tt class="py-op">*</tt><tt id="link-5" class="py-name"><a title="SatStress.physcon.pi" class="py-name" href="#" onclick="return doclink('link-5', 'pi', 'link-0');">pi</a></tt><tt class="py-op">*</tt><tt id="link-6" class="py-name"><a title="SatStress.physcon.cloc" class="py-name" href="#" onclick="return doclink('link-6', 'cloc', 'link-1');">cloc</a></tt><tt class="py-op">*</tt><tt id="link-7" class="py-name"><a title="SatStress.physcon.cloc" class="py-name" href="#" onclick="return doclink('link-7', 'cloc', 'link-1');">cloc</a></tt><tt class="py-op">)</tt><tt class="py-op">,</tt><tt class="py-number">0.</tt><tt class="py-op">,</tt><tt class="py-number">0.</tt><tt class="py-op">,</tt><tt class="py-string">'8.854 187 817... e-12 F/m'</tt><tt class="py-op">,</tt><tt class="py-string">''</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L46"></a><tt class="py-lineno"> 46</tt>  <tt class="py-line">     <tt class="py-string">'gravit'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Newton constant of gravitation'</tt><tt class="py-op">,</tt><tt class="py-string">'G'</tt><tt class="py-op">,</tt><tt class="py-number">6.67428e-11</tt><tt class="py-op">,</tt> <tt class="py-number">6.7e-15</tt><tt class="py-op">,</tt><tt class="py-number">1.0e-4</tt><tt class="py-op">,</tt><tt class="py-string">'6.674 28(67) e-11 m^3 kg^-1 s^-2'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L47"></a><tt class="py-lineno"> 47</tt>  <tt class="py-line">     <tt class="py-string">'charge-e'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'elementary charge'</tt><tt class="py-op">,</tt><tt class="py-string">'e'</tt><tt class="py-op">,</tt><tt class="py-number">1.60217653e-19</tt><tt class="py-op">,</tt><tt class="py-number">1.4e-26</tt><tt class="py-op">,</tt><tt class="py-number">8.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.602 176 53(14) e-19 C'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L48"></a><tt class="py-lineno"> 48</tt>  <tt class="py-line">     <tt class="py-string">'mass-e'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'electron mass'</tt><tt class="py-op">,</tt><tt class="py-string">'m_e'</tt><tt class="py-op">,</tt><tt class="py-number">9.10938215e-31</tt><tt class="py-op">,</tt><tt class="py-number">4.5e-38</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'9.109 382 15(45) e-31 kg'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L49"></a><tt class="py-lineno"> 49</tt>  <tt class="py-line">     <tt class="py-string">'mass-e/u'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'electron mass in u'</tt><tt class="py-op">,</tt><tt class="py-string">'m_e_u'</tt><tt class="py-op">,</tt><tt class="py-number">5.4857990943e-4</tt><tt class="py-op">,</tt><tt class="py-number">2.3e-13</tt><tt class="py-op">,</tt><tt class="py-number">4.2e-10</tt><tt class="py-op">,</tt><tt class="py-string">'5.485 799 0945(23) u'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L50"></a><tt class="py-lineno"> 50</tt>  <tt class="py-line">     <tt class="py-string">'mass-p'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'proton mass'</tt><tt class="py-op">,</tt><tt class="py-string">'m_p'</tt><tt class="py-op">,</tt><tt class="py-number">1.672621637e-27</tt><tt class="py-op">,</tt><tt class="py-number">8.3e-35</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.672 621 637(83) e-27 kg'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L51"></a><tt class="py-lineno"> 51</tt>  <tt class="py-line">     <tt class="py-string">'mass-p/u'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'proton mass in u'</tt><tt class="py-op">,</tt><tt class="py-string">'m_p_u'</tt><tt class="py-op">,</tt><tt class="py-number">1.00727646677</tt><tt class="py-op">,</tt><tt class="py-number">1.0e-10</tt><tt class="py-op">,</tt><tt class="py-number">1.0e-10</tt><tt class="py-op">,</tt><tt class="py-string">'1.007 276 466 77(10) u'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L52"></a><tt class="py-lineno"> 52</tt>  <tt class="py-line">     <tt class="py-string">'mass-n'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'neutron mass'</tt><tt class="py-op">,</tt><tt class="py-string">'m_n'</tt><tt class="py-op">,</tt><tt class="py-number">1.674927211e-27</tt><tt class="py-op">,</tt><tt class="py-number">8.4e-35</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.674 927 211(84) e-27 kg'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L53"></a><tt class="py-lineno"> 53</tt>  <tt class="py-line">     <tt class="py-string">'mass-n/u'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'neutron mass in u'</tt><tt class="py-op">,</tt><tt class="py-string">'m_n_u'</tt><tt class="py-op">,</tt><tt class="py-number">1.00866491597</tt><tt class="py-op">,</tt><tt class="py-number">4.3e-10</tt><tt class="py-op">,</tt><tt class="py-number">4.3e-10</tt><tt class="py-op">,</tt><tt class="py-string">'1.008 664 915 97(43) u'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L54"></a><tt class="py-lineno"> 54</tt>  <tt class="py-line">     <tt class="py-string">'mass-d'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'deuteron mass'</tt><tt class="py-op">,</tt><tt class="py-string">'m_d'</tt><tt class="py-op">,</tt><tt class="py-number">3.34358320e-27</tt><tt class="py-op">,</tt><tt class="py-number">1.7e-34</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'3.343 583 20(17) e-27 kg'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L55"></a><tt class="py-lineno"> 55</tt>  <tt class="py-line">     <tt class="py-string">'mass-d/u'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'deuteron mass in u'</tt><tt class="py-op">,</tt><tt class="py-string">'m_d_u'</tt><tt class="py-op">,</tt><tt class="py-number">2.013553212724</tt><tt class="py-op">,</tt><tt class="py-number">7.8e-11</tt><tt class="py-op">,</tt><tt class="py-number">3.9e-11</tt><tt class="py-op">,</tt><tt class="py-string">'2.013 553 212 724(78) u'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L56"></a><tt class="py-lineno"> 56</tt>  <tt class="py-line">     <tt class="py-string">'mass-mu'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'muon mass'</tt><tt class="py-op">,</tt><tt class="py-string">'m_m'</tt><tt class="py-op">,</tt><tt class="py-number">1.88353130e-28</tt><tt class="py-op">,</tt><tt class="py-number">1.1e-35</tt><tt class="py-op">,</tt><tt class="py-number">5.6e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.883 531 30(11) e-28 kg'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L57"></a><tt class="py-lineno"> 57</tt>  <tt class="py-line">     <tt class="py-string">'mass-mu/u'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'muon mass in u'</tt><tt class="py-op">,</tt><tt class="py-string">'m_m_u'</tt><tt class="py-op">,</tt><tt class="py-number">0.1134289256</tt><tt class="py-op">,</tt><tt class="py-number">2.9e-9</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'0.113 428 9256(29) u'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L58"></a><tt class="py-lineno"> 58</tt>  <tt class="py-line">     <tt class="py-string">'ratio-me/mp'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'electron/proton mass ratio'</tt><tt class="py-op">,</tt><tt class="py-string">'ratio_memp'</tt><tt class="py-op">,</tt><tt class="py-number">5.4461702177e-4</tt><tt class="py-op">,</tt><tt class="py-number">2.4e-13</tt><tt class="py-op">,</tt><tt class="py-number">4.3e-10</tt><tt class="py-op">,</tt><tt class="py-string">'5.446 170 2177(24) e-4'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L59"></a><tt class="py-lineno"> 59</tt>  <tt class="py-line">     <tt class="py-string">'ratio-mp/me'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'proton/electron mass ratio'</tt><tt class="py-op">,</tt><tt class="py-string">'ratio_mpme'</tt><tt class="py-op">,</tt><tt class="py-number">1836.15267247</tt><tt class="py-op">,</tt><tt class="py-number">8.0e-7</tt><tt class="py-op">,</tt><tt class="py-number">4.3e-10</tt><tt class="py-op">,</tt><tt class="py-string">'1836.152 672 47(80)'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L60"></a><tt class="py-lineno"> 60</tt>  <tt class="py-line">     <tt class="py-string">'amu'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'unified atomic mass unit = 1/12 m(12C)'</tt><tt class="py-op">,</tt><tt class="py-string">'u'</tt><tt class="py-op">,</tt><tt class="py-number">1.660538782e-27</tt><tt class="py-op">,</tt><tt class="py-number">8.3e-35</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.660 538 782(83) e-27 kg'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L61"></a><tt class="py-lineno"> 61</tt>  <tt class="py-line">     <tt class="py-string">'avogadro'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Avogadro constant'</tt><tt class="py-op">,</tt><tt class="py-string">'N_A'</tt><tt class="py-op">,</tt><tt class="py-number">6.02214179e23</tt><tt class="py-op">,</tt><tt class="py-number">3.0e16</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-8</tt><tt class="py-op">,</tt><tt class="py-string">'6.022 141 79(30) e23 mol^-1'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L62"></a><tt class="py-lineno"> 62</tt>  <tt class="py-line">     <tt class="py-string">'boltzmann'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Boltzmann constant'</tt><tt class="py-op">,</tt><tt class="py-string">'k_B'</tt><tt class="py-op">,</tt><tt class="py-number">1.3806504e-23</tt><tt class="py-op">,</tt><tt class="py-number">2.4e-29</tt><tt class="py-op">,</tt><tt class="py-number">1.7e-6</tt><tt class="py-op">,</tt><tt class="py-string">'1.380 6504(24) J/K'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L63"></a><tt class="py-lineno"> 63</tt>  <tt class="py-line">     <tt class="py-string">'gas'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'molar gas constant = N_A k_B'</tt><tt class="py-op">,</tt><tt class="py-string">'R'</tt><tt class="py-op">,</tt><tt class="py-number">8.314472</tt><tt class="py-op">,</tt><tt class="py-number">1.5e-5</tt><tt class="py-op">,</tt><tt class="py-number">1.7e-6</tt><tt class="py-op">,</tt><tt class="py-string">'8.314 472(15) J mol^-1 K^-1'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L64"></a><tt class="py-lineno"> 64</tt>  <tt class="py-line">     <tt class="py-string">'faraday'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Faraday constant = N_A e'</tt><tt class="py-op">,</tt><tt class="py-string">'F'</tt><tt class="py-op">,</tt><tt class="py-number">96485.3399</tt><tt class="py-op">,</tt><tt class="py-number">2.4e-3</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'96 485.3399(24) C/mol'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L65"></a><tt class="py-lineno"> 65</tt>  <tt class="py-line">     <tt class="py-string">'bohrradius'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Bohr radius = 4 pi eps_0 hbar^2/(m_e e^2)'</tt><tt class="py-op">,</tt><tt class="py-string">'a_0'</tt><tt class="py-op">,</tt><tt class="py-number">5.2917720859e-11</tt><tt class="py-op">,</tt><tt class="py-number">3.6e-20</tt><tt class="py-op">,</tt><tt class="py-number">6.8e-10</tt><tt class="py-op">,</tt><tt class="py-string">'0.529 177 208 59(36) e-10 m'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L66"></a><tt class="py-lineno"> 66</tt>  <tt class="py-line">     <tt class="py-string">'magflux-qu'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'magnetic flux quantum = h/(2 e)'</tt><tt class="py-op">,</tt><tt class="py-string">'Phi_0'</tt><tt class="py-op">,</tt><tt class="py-number">2.067833667e-15</tt><tt class="py-op">,</tt><tt class="py-number">5.2e-23</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'2.067 833 667(52) Wb'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L67"></a><tt class="py-lineno"> 67</tt>  <tt class="py-line">     <tt class="py-string">'conduct-qu'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'conductance quantum = 2 e^2/h'</tt><tt class="py-op">,</tt><tt class="py-string">'G_0'</tt><tt class="py-op">,</tt><tt class="py-number">7.7480917004e-5</tt><tt class="py-op">,</tt><tt class="py-number">5.3e-14</tt><tt class="py-op">,</tt><tt class="py-number">6.8e-10</tt><tt class="py-op">,</tt><tt class="py-string">'7.748 091 7004(53) e-5 S'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L68"></a><tt class="py-lineno"> 68</tt>  <tt class="py-line">     <tt class="py-string">'josephson'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Josephson constant = 2 e/h'</tt><tt class="py-op">,</tt><tt class="py-string">'K_J'</tt><tt class="py-op">,</tt><tt class="py-number">4.83597891e14</tt><tt class="py-op">,</tt> <tt class="py-number">1.2e6</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'4.835 978 91(12) e14 Hz/V'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L69"></a><tt class="py-lineno"> 69</tt>  <tt class="py-line">     <tt class="py-string">'bohrmagn'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Bohr magneton = e hbar/(2 m_e)'</tt><tt class="py-op">,</tt><tt class="py-string">'mu_B'</tt><tt class="py-op">,</tt><tt class="py-number">9.27400915e-24</tt><tt class="py-op">,</tt><tt class="py-number">2.3e-31</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'9.274 009 15(23) e-24 J/T'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L70"></a><tt class="py-lineno"> 70</tt>  <tt class="py-line">     <tt class="py-string">'nuclmagn'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'nuclear magneton = e hbar/(2 m_p)'</tt><tt class="py-op">,</tt><tt class="py-string">'mu_N'</tt><tt class="py-op">,</tt><tt class="py-number">5.05078324e-27</tt><tt class="py-op">,</tt><tt class="py-number">1.3e-34</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'5.050 783 24(13) e-27 J/T'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L71"></a><tt class="py-lineno"> 71</tt>  <tt class="py-line">     <tt class="py-string">'magnmom-e'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'electron magnetic moment'</tt><tt class="py-op">,</tt><tt class="py-string">'mu_e'</tt><tt class="py-op">,</tt><tt class="py-op">-</tt><tt class="py-number">9.28476377e-24</tt><tt class="py-op">,</tt><tt class="py-number">2.3e-31</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'-9.284 763 77(23) e-24 J/T'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L72"></a><tt class="py-lineno"> 72</tt>  <tt class="py-line">     <tt class="py-string">'magnmom-p'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'proton magnetic moment'</tt><tt class="py-op">,</tt><tt class="py-string">'mu_p'</tt><tt class="py-op">,</tt><tt class="py-number">1.41060662e-26</tt><tt class="py-op">,</tt><tt class="py-number">3.7e-33</tt><tt class="py-op">,</tt><tt class="py-number">2.5e-8</tt><tt class="py-op">,</tt><tt class="py-string">'1.410 606 662(37) e-26 J/T'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L73"></a><tt class="py-lineno"> 73</tt>  <tt class="py-line">     <tt class="py-string">'gfactor-e'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'electron g-factor'</tt><tt class="py-op">,</tt><tt class="py-string">'g_e'</tt><tt class="py-op">,</tt><tt class="py-op">-</tt><tt class="py-number">2.0023193043622</tt><tt class="py-op">,</tt><tt class="py-number">1.5e-12</tt><tt class="py-op">,</tt><tt class="py-number">7.4e-13</tt><tt class="py-op">,</tt><tt class="py-string">'-2.002 319 304 3622(15)'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L74"></a><tt class="py-lineno"> 74</tt>  <tt class="py-line">     <tt class="py-string">'gfactor-p'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'proton g-factor'</tt><tt class="py-op">,</tt><tt class="py-string">'g_p'</tt><tt class="py-op">,</tt><tt class="py-number">5.585694713</tt><tt class="py-op">,</tt> <tt class="py-number">4.6e-8</tt><tt class="py-op">,</tt><tt class="py-number">8.2e-9</tt><tt class="py-op">,</tt><tt class="py-string">'5.585 694 713(46)'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L75"></a><tt class="py-lineno"> 75</tt>  <tt class="py-line">     <tt class="py-string">'alpha'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'fine-structure constant = e^2/(4 pi eps_0 hbar c)'</tt><tt class="py-op">,</tt><tt class="py-string">'alpha'</tt><tt class="py-op">,</tt><tt class="py-number">7.2973525376e-3</tt><tt class="py-op">,</tt><tt class="py-number">5.0e-12</tt><tt class="py-op">,</tt><tt class="py-number">6.8e-10</tt><tt class="py-op">,</tt><tt class="py-string">'7.297 352 5376(50) e-3'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L76"></a><tt class="py-lineno"> 76</tt>  <tt class="py-line">     <tt class="py-string">'alpha-1'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'inverse fine-structure constant = 4 pi eps_0 hbar c/e^2'</tt><tt class="py-op">,</tt><tt class="py-string">''</tt><tt class="py-op">,</tt><tt class="py-number">137.035999679</tt><tt class="py-op">,</tt><tt class="py-number">9.4e-8</tt><tt class="py-op">,</tt><tt class="py-number">6.8e-10</tt><tt class="py-op">,</tt><tt class="py-string">'137.035 999 679(94)'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L77"></a><tt class="py-lineno"> 77</tt>  <tt class="py-line">     <tt class="py-string">'gyromagratio-p'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'proton gyromagnetic ratio'</tt><tt class="py-op">,</tt><tt class="py-string">'gamma_p'</tt><tt class="py-op">,</tt><tt class="py-number">2.675222099e8</tt><tt class="py-op">,</tt><tt class="py-number">7.0</tt><tt class="py-op">,</tt><tt class="py-number">2.6e-8</tt><tt class="py-op">,</tt><tt class="py-string">'2.675 222 099(70) e8 s^-1 T^-1'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L78"></a><tt class="py-lineno"> 78</tt>  <tt class="py-line">     <tt class="py-string">'magres-p'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'magnetic resonance frequency proton = gamma_p/(2*pi)'</tt><tt class="py-op">,</tt><tt class="py-string">''</tt><tt class="py-op">,</tt><tt class="py-number">4.25774821e7</tt><tt class="py-op">,</tt><tt class="py-number">1.1</tt><tt class="py-op">,</tt><tt class="py-number">2.6e-8</tt><tt class="py-op">,</tt><tt class="py-string">'42.577 4821(11) MHz/T'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L79"></a><tt class="py-lineno"> 79</tt>  <tt class="py-line">     <tt class="py-string">'rydberg'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Rydberg constant = alpha^2 m_e c/(2 h)'</tt><tt class="py-op">,</tt><tt class="py-string">'R_infty'</tt><tt class="py-op">,</tt><tt class="py-number">10973731.568527</tt><tt class="py-op">,</tt><tt class="py-number">7.3e-5</tt><tt class="py-op">,</tt><tt class="py-number">6.6e-12</tt><tt class="py-op">,</tt><tt class="py-string">'10 973 731.568 527(73) m^-1'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">,</tt> </tt>
<a name="L80"></a><tt class="py-lineno"> 80</tt>  <tt class="py-line">     <tt class="py-string">'stefan-boltzm'</tt><tt class="py-op">:</tt><tt class="py-op">[</tt><tt class="py-string">'Stefan-Boltzmann constant = pi^2 k^4/(60 hbar^3 c^2)'</tt><tt class="py-op">,</tt><tt class="py-string">'sigma'</tt><tt class="py-op">,</tt><tt class="py-number">5.670400e-8</tt><tt class="py-op">,</tt><tt class="py-number">4.0e-13</tt><tt class="py-op">,</tt><tt class="py-number">7.0e-6</tt><tt class="py-op">,</tt><tt class="py-string">'5.670 400(40) e-8 W m^-2 K^-4'</tt><tt class="py-op">,</tt><tt class="py-string">'CODATA 2006'</tt><tt class="py-op">]</tt><tt class="py-op">}</tt>              </tt>
<a name="L81"></a><tt class="py-lineno"> 81</tt>  <tt class="py-line">      </tt>
<a name="L82"></a><tt class="py-lineno"> 82</tt>  <tt class="py-line"> </tt>
<a name="L83"></a><tt class="py-lineno"> 83</tt>  <tt class="py-line"><tt class="py-comment"># many common values are also available as global constants:</tt> </tt>
<a name="L84"></a><tt class="py-lineno"> 84</tt>  <tt class="py-line"><tt class="py-comment"></tt><tt class="py-keyword">global</tt> <tt id="link-8" class="py-name" targets="Method SatStress.SatStress.StressDef.alpha()=SatStress.SatStress.StressDef-class.html#alpha,Variable SatStress.physcon.alpha=SatStress.physcon-module.html#alpha"><a title="SatStress.SatStress.StressDef.alpha
SatStress.physcon.alpha" class="py-name" href="#" onclick="return doclink('link-8', 'alpha', 'link-8');">alpha</a></tt><tt class="py-op">,</tt><tt id="link-9" class="py-name" targets="Variable SatStress.physcon.a_0=SatStress.physcon-module.html#a_0"><a title="SatStress.physcon.a_0" class="py-name" href="#" onclick="return doclink('link-9', 'a_0', 'link-9');">a_0</a></tt><tt class="py-op">,</tt><tt id="link-10" class="py-name" targets="Variable SatStress.physcon.c=SatStress.physcon-module.html#c"><a title="SatStress.physcon.c" class="py-name" href="#" onclick="return doclink('link-10', 'c', 'link-10');">c</a></tt><tt class="py-op">,</tt><tt id="link-11" class="py-name" targets="Variable SatStress.physcon.e=SatStress.physcon-module.html#e"><a title="SatStress.physcon.e" class="py-name" href="#" onclick="return doclink('link-11', 'e', 'link-11');">e</a></tt><tt class="py-op">,</tt><tt id="link-12" class="py-name" targets="Variable SatStress.physcon.eps_0=SatStress.physcon-module.html#eps_0"><a title="SatStress.physcon.eps_0" class="py-name" href="#" onclick="return doclink('link-12', 'eps_0', 'link-12');">eps_0</a></tt><tt class="py-op">,</tt><tt id="link-13" class="py-name" targets="Variable SatStress.physcon.F=SatStress.physcon-module.html#F"><a title="SatStress.physcon.F" class="py-name" href="#" onclick="return doclink('link-13', 'F', 'link-13');">F</a></tt><tt class="py-op">,</tt><tt id="link-14" class="py-name" targets="Variable SatStress.physcon.G=SatStress.physcon-module.html#G"><a title="SatStress.physcon.G" class="py-name" href="#" onclick="return doclink('link-14', 'G', 'link-14');">G</a></tt><tt class="py-op">,</tt><tt id="link-15" class="py-name" targets="Variable SatStress.physcon.g_e=SatStress.physcon-module.html#g_e"><a title="SatStress.physcon.g_e" class="py-name" href="#" onclick="return doclink('link-15', 'g_e', 'link-15');">g_e</a></tt><tt class="py-op">,</tt><tt id="link-16" class="py-name" targets="Variable SatStress.physcon.g_p=SatStress.physcon-module.html#g_p"><a title="SatStress.physcon.g_p" class="py-name" href="#" onclick="return doclink('link-16', 'g_p', 'link-16');">g_p</a></tt><tt class="py-op">,</tt><tt id="link-17" class="py-name" targets="Variable SatStress.physcon.gamma_p=SatStress.physcon-module.html#gamma_p"><a title="SatStress.physcon.gamma_p" class="py-name" href="#" onclick="return doclink('link-17', 'gamma_p', 'link-17');">gamma_p</a></tt><tt class="py-op">,</tt><tt id="link-18" class="py-name" targets="Variable SatStress.physcon.h=SatStress.physcon-module.html#h"><a title="SatStress.physcon.h" class="py-name" href="#" onclick="return doclink('link-18', 'h', 'link-18');">h</a></tt><tt class="py-op">,</tt><tt id="link-19" class="py-name" targets="Variable SatStress.physcon.hbar=SatStress.physcon-module.html#hbar"><a title="SatStress.physcon.hbar" class="py-name" href="#" onclick="return doclink('link-19', 'hbar', 'link-19');">hbar</a></tt><tt class="py-op">,</tt><tt id="link-20" class="py-name" targets="Variable SatStress.physcon.k_B=SatStress.physcon-module.html#k_B"><a title="SatStress.physcon.k_B" class="py-name" href="#" onclick="return doclink('link-20', 'k_B', 'link-20');">k_B</a></tt> </tt>
<a name="L85"></a><tt class="py-lineno"> 85</tt>  <tt class="py-line"><tt class="py-keyword">global</tt> <tt id="link-21" class="py-name" targets="Variable SatStress.physcon.m_d=SatStress.physcon-module.html#m_d"><a title="SatStress.physcon.m_d" class="py-name" href="#" onclick="return doclink('link-21', 'm_d', 'link-21');">m_d</a></tt><tt class="py-op">,</tt><tt id="link-22" class="py-name" targets="Variable SatStress.physcon.m_e=SatStress.physcon-module.html#m_e"><a title="SatStress.physcon.m_e" class="py-name" href="#" onclick="return doclink('link-22', 'm_e', 'link-22');">m_e</a></tt><tt class="py-op">,</tt><tt id="link-23" class="py-name" targets="Variable SatStress.physcon.m_n=SatStress.physcon-module.html#m_n"><a title="SatStress.physcon.m_n" class="py-name" href="#" onclick="return doclink('link-23', 'm_n', 'link-23');">m_n</a></tt><tt class="py-op">,</tt><tt id="link-24" class="py-name" targets="Variable SatStress.physcon.m_p=SatStress.physcon-module.html#m_p"><a title="SatStress.physcon.m_p" class="py-name" href="#" onclick="return doclink('link-24', 'm_p', 'link-24');">m_p</a></tt><tt class="py-op">,</tt><tt id="link-25" class="py-name" targets="Variable SatStress.physcon.mu_B=SatStress.physcon-module.html#mu_B"><a title="SatStress.physcon.mu_B" class="py-name" href="#" onclick="return doclink('link-25', 'mu_B', 'link-25');">mu_B</a></tt><tt class="py-op">,</tt><tt id="link-26" class="py-name" targets="Variable SatStress.physcon.mu_e=SatStress.physcon-module.html#mu_e"><a title="SatStress.physcon.mu_e" class="py-name" href="#" onclick="return doclink('link-26', 'mu_e', 'link-26');">mu_e</a></tt><tt class="py-op">,</tt><tt id="link-27" class="py-name" targets="Variable SatStress.physcon.mu_N=SatStress.physcon-module.html#mu_N"><a title="SatStress.physcon.mu_N" class="py-name" href="#" onclick="return doclink('link-27', 'mu_N', 'link-27');">mu_N</a></tt><tt class="py-op">,</tt><tt id="link-28" class="py-name" targets="Variable SatStress.physcon.mu_p=SatStress.physcon-module.html#mu_p"><a title="SatStress.physcon.mu_p" class="py-name" href="#" onclick="return doclink('link-28', 'mu_p', 'link-28');">mu_p</a></tt><tt class="py-op">,</tt><tt id="link-29" class="py-name" targets="Variable SatStress.physcon.mu_0=SatStress.physcon-module.html#mu_0"><a title="SatStress.physcon.mu_0" class="py-name" href="#" onclick="return doclink('link-29', 'mu_0', 'link-29');">mu_0</a></tt><tt class="py-op">,</tt><tt id="link-30" class="py-name" targets="Variable SatStress.physcon.N_A=SatStress.physcon-module.html#N_A"><a title="SatStress.physcon.N_A" class="py-name" href="#" onclick="return doclink('link-30', 'N_A', 'link-30');">N_A</a></tt><tt class="py-op">,</tt><tt id="link-31" class="py-name" targets="Variable SatStress.physcon.R=SatStress.physcon-module.html#R"><a title="SatStress.physcon.R" class="py-name" href="#" onclick="return doclink('link-31', 'R', 'link-31');">R</a></tt><tt class="py-op">,</tt><tt id="link-32" class="py-name" targets="Variable SatStress.physcon.sigma=SatStress.physcon-module.html#sigma"><a title="SatStress.physcon.sigma" class="py-name" href="#" onclick="return doclink('link-32', 'sigma', 'link-32');">sigma</a></tt><tt class="py-op">,</tt><tt id="link-33" class="py-name" targets="Variable SatStress.physcon.u=SatStress.physcon-module.html#u"><a title="SatStress.physcon.u" class="py-name" href="#" onclick="return doclink('link-33', 'u', 'link-33');">u</a></tt> </tt>
<a name="L86"></a><tt class="py-lineno"> 86</tt>  <tt class="py-line"><tt id="link-34" class="py-name"><a title="SatStress.SatStress.StressDef.alpha
SatStress.physcon.alpha" class="py-name" href="#" onclick="return doclink('link-34', 'alpha', 'link-8');">alpha</a></tt> <tt class="py-op">=</tt> <tt id="link-35" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-35', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'alpha'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L87"></a><tt class="py-lineno"> 87</tt>  <tt class="py-line"><tt id="link-36" class="py-name"><a title="SatStress.physcon.a_0" class="py-name" href="#" onclick="return doclink('link-36', 'a_0', 'link-9');">a_0</a></tt> <tt class="py-op">=</tt>  <tt id="link-37" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-37', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'bohrradius'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L88"></a><tt class="py-lineno"> 88</tt>  <tt class="py-line"><tt id="link-38" class="py-name"><a title="SatStress.physcon.c" class="py-name" href="#" onclick="return doclink('link-38', 'c', 'link-10');">c</a></tt> <tt class="py-op">=</tt> <tt id="link-39" class="py-name"><a title="SatStress.physcon.cloc" class="py-name" href="#" onclick="return doclink('link-39', 'cloc', 'link-1');">cloc</a></tt> </tt>
<a name="L89"></a><tt class="py-lineno"> 89</tt>  <tt class="py-line"><tt id="link-40" class="py-name"><a title="SatStress.physcon.e" class="py-name" href="#" onclick="return doclink('link-40', 'e', 'link-11');">e</a></tt> <tt class="py-op">=</tt>  <tt id="link-41" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-41', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'charge-e'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L90"></a><tt class="py-lineno"> 90</tt>  <tt class="py-line"><tt id="link-42" class="py-name"><a title="SatStress.physcon.eps_0" class="py-name" href="#" onclick="return doclink('link-42', 'eps_0', 'link-12');">eps_0</a></tt> <tt class="py-op">=</tt>  <tt id="link-43" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-43', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'elec-const'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L91"></a><tt class="py-lineno"> 91</tt>  <tt class="py-line"><tt id="link-44" class="py-name"><a title="SatStress.physcon.F" class="py-name" href="#" onclick="return doclink('link-44', 'F', 'link-13');">F</a></tt> <tt class="py-op">=</tt>  <tt id="link-45" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-45', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'faraday'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L92"></a><tt class="py-lineno"> 92</tt>  <tt class="py-line"><tt id="link-46" class="py-name"><a title="SatStress.physcon.G" class="py-name" href="#" onclick="return doclink('link-46', 'G', 'link-14');">G</a></tt> <tt class="py-op">=</tt>  <tt id="link-47" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-47', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'gravit'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L93"></a><tt class="py-lineno"> 93</tt>  <tt class="py-line"><tt id="link-48" class="py-name"><a title="SatStress.physcon.g_e" class="py-name" href="#" onclick="return doclink('link-48', 'g_e', 'link-15');">g_e</a></tt> <tt class="py-op">=</tt>  <tt id="link-49" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-49', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'gfactor-e'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L94"></a><tt class="py-lineno"> 94</tt>  <tt class="py-line"><tt id="link-50" class="py-name"><a title="SatStress.physcon.g_p" class="py-name" href="#" onclick="return doclink('link-50', 'g_p', 'link-16');">g_p</a></tt> <tt class="py-op">=</tt>  <tt id="link-51" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-51', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'gfactor-p'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L95"></a><tt class="py-lineno"> 95</tt>  <tt class="py-line"><tt id="link-52" class="py-name"><a title="SatStress.physcon.gamma_p" class="py-name" href="#" onclick="return doclink('link-52', 'gamma_p', 'link-17');">gamma_p</a></tt> <tt class="py-op">=</tt>  <tt id="link-53" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-53', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'gyromagratio-p'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L96"></a><tt class="py-lineno"> 96</tt>  <tt class="py-line"><tt id="link-54" class="py-name"><a title="SatStress.physcon.h" class="py-name" href="#" onclick="return doclink('link-54', 'h', 'link-18');">h</a></tt> <tt class="py-op">=</tt> <tt id="link-55" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-55', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'planck'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L97"></a><tt class="py-lineno"> 97</tt>  <tt class="py-line"><tt id="link-56" class="py-name"><a title="SatStress.physcon.hbar" class="py-name" href="#" onclick="return doclink('link-56', 'hbar', 'link-19');">hbar</a></tt> <tt class="py-op">=</tt> <tt id="link-57" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-57', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'dirac'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L98"></a><tt class="py-lineno"> 98</tt>  <tt class="py-line"><tt id="link-58" class="py-name"><a title="SatStress.physcon.k_B" class="py-name" href="#" onclick="return doclink('link-58', 'k_B', 'link-20');">k_B</a></tt> <tt class="py-op">=</tt>  <tt id="link-59" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-59', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'boltzmann'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L99"></a><tt class="py-lineno"> 99</tt>  <tt class="py-line"><tt id="link-60" class="py-name"><a title="SatStress.physcon.m_d" class="py-name" href="#" onclick="return doclink('link-60', 'm_d', 'link-21');">m_d</a></tt> <tt class="py-op">=</tt>  <tt id="link-61" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-61', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'mass-d'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L100"></a><tt class="py-lineno">100</tt>  <tt class="py-line"><tt id="link-62" class="py-name"><a title="SatStress.physcon.m_e" class="py-name" href="#" onclick="return doclink('link-62', 'm_e', 'link-22');">m_e</a></tt> <tt class="py-op">=</tt>  <tt id="link-63" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-63', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'mass-e'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L101"></a><tt class="py-lineno">101</tt>  <tt class="py-line"><tt id="link-64" class="py-name"><a title="SatStress.physcon.m_n" class="py-name" href="#" onclick="return doclink('link-64', 'm_n', 'link-23');">m_n</a></tt> <tt class="py-op">=</tt>  <tt id="link-65" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-65', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'mass-n'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L102"></a><tt class="py-lineno">102</tt>  <tt class="py-line"><tt id="link-66" class="py-name"><a title="SatStress.physcon.m_p" class="py-name" href="#" onclick="return doclink('link-66', 'm_p', 'link-24');">m_p</a></tt> <tt class="py-op">=</tt>  <tt id="link-67" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-67', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'mass-n'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L103"></a><tt class="py-lineno">103</tt>  <tt class="py-line"><tt id="link-68" class="py-name"><a title="SatStress.physcon.mu_B" class="py-name" href="#" onclick="return doclink('link-68', 'mu_B', 'link-25');">mu_B</a></tt> <tt class="py-op">=</tt>  <tt id="link-69" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-69', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'bohrmagn'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L104"></a><tt class="py-lineno">104</tt>  <tt class="py-line"><tt id="link-70" class="py-name"><a title="SatStress.physcon.mu_e" class="py-name" href="#" onclick="return doclink('link-70', 'mu_e', 'link-26');">mu_e</a></tt> <tt class="py-op">=</tt>  <tt id="link-71" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-71', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'magnmom-e'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L105"></a><tt class="py-lineno">105</tt>  <tt class="py-line"><tt id="link-72" class="py-name"><a title="SatStress.physcon.mu_N" class="py-name" href="#" onclick="return doclink('link-72', 'mu_N', 'link-27');">mu_N</a></tt> <tt class="py-op">=</tt>  <tt id="link-73" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-73', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'nuclmagn'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L106"></a><tt class="py-lineno">106</tt>  <tt class="py-line"><tt id="link-74" class="py-name"><a title="SatStress.physcon.mu_p" class="py-name" href="#" onclick="return doclink('link-74', 'mu_p', 'link-28');">mu_p</a></tt> <tt class="py-op">=</tt>  <tt id="link-75" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-75', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'magnmom-p'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L107"></a><tt class="py-lineno">107</tt>  <tt class="py-line"><tt id="link-76" class="py-name"><a title="SatStress.physcon.mu_0" class="py-name" href="#" onclick="return doclink('link-76', 'mu_0', 'link-29');">mu_0</a></tt> <tt class="py-op">=</tt>  <tt id="link-77" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-77', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'magn-const'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L108"></a><tt class="py-lineno">108</tt>  <tt class="py-line"><tt id="link-78" class="py-name"><a title="SatStress.physcon.N_A" class="py-name" href="#" onclick="return doclink('link-78', 'N_A', 'link-30');">N_A</a></tt> <tt class="py-op">=</tt>  <tt id="link-79" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-79', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'avogadro'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L109"></a><tt class="py-lineno">109</tt>  <tt class="py-line"><tt id="link-80" class="py-name"><a title="SatStress.physcon.R" class="py-name" href="#" onclick="return doclink('link-80', 'R', 'link-31');">R</a></tt> <tt class="py-op">=</tt>  <tt id="link-81" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-81', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'gas'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L110"></a><tt class="py-lineno">110</tt>  <tt class="py-line"><tt id="link-82" class="py-name"><a title="SatStress.physcon.sigma" class="py-name" href="#" onclick="return doclink('link-82', 'sigma', 'link-32');">sigma</a></tt> <tt class="py-op">=</tt>  <tt id="link-83" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-83', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'stefan-boltzm'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L111"></a><tt class="py-lineno">111</tt>  <tt class="py-line"><tt id="link-84" class="py-name"><a title="SatStress.physcon.u" class="py-name" href="#" onclick="return doclink('link-84', 'u', 'link-33');">u</a></tt> <tt class="py-op">=</tt>  <tt id="link-85" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-85', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-string">'amu'</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L112"></a><tt class="py-lineno">112</tt>  <tt class="py-line"> </tt>
<a name="L113"></a><tt class="py-lineno">113</tt>  <tt class="py-line"> </tt>
<a name="help"></a><div id="help-def"><a name="L114"></a><tt class="py-lineno">114</tt> <a class="py-toggle" href="#" id="help-toggle" onclick="return toggle('help');">-</a><tt class="py-line"><tt class="py-keyword">def</tt> <a class="py-def-name" href="SatStress.physcon-module.html#help">help</a><tt class="py-op">(</tt><tt class="py-op">)</tt><tt class="py-op">:</tt> </tt>
</div><div id="help-collapsed" style="display:none;" pad="+++" indent="++++"></div><div id="help-expanded"><a name="L115"></a><tt class="py-lineno">115</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'Available functions:'</tt> </tt>
<a name="L116"></a><tt class="py-lineno">116</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'[note: key must be a string, within quotes!]'</tt>  </tt>
<a name="L117"></a><tt class="py-lineno">117</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  value(key) returns value (float)'</tt> </tt>
<a name="L118"></a><tt class="py-lineno">118</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  sd(key)    returns standard deviation (float)'</tt> </tt>
<a name="L119"></a><tt class="py-lineno">119</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  relsd(key) returns relative standard deviation (float)'</tt> </tt>
<a name="L120"></a><tt class="py-lineno">120</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  descr(key) prints description with units\n'</tt> </tt>
<a name="L121"></a><tt class="py-lineno">121</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'Available global variables:'</tt> </tt>
<a name="L122"></a><tt class="py-lineno">122</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  alpha, a_0, c, e, eps_0, F, G, g_e, g_p, gamma_p, h, hbar, k_B'</tt> </tt>
<a name="L123"></a><tt class="py-lineno">123</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  m_d, m_e, m_n, m_p, mu_B, mu_e, mu_N, mu_p, mu_0, N_A, R, sigma, u\n'</tt> </tt>
<a name="L124"></a><tt class="py-lineno">124</tt>  <tt class="py-line">    <tt class="py-name">allkeys</tt><tt class="py-op">=</tt><tt id="link-86" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-86', 'all', 'link-2');">all</a></tt><tt class="py-op">.</tt><tt class="py-name">keys</tt><tt class="py-op">(</tt><tt class="py-op">)</tt> </tt>
<a name="L125"></a><tt class="py-lineno">125</tt>  <tt class="py-line">    <tt class="py-name">allkeys</tt><tt class="py-op">.</tt><tt class="py-name">sort</tt><tt class="py-op">(</tt><tt class="py-op">)</tt> </tt>
<a name="L126"></a><tt class="py-lineno">126</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'Available keys:'</tt> </tt>
<a name="L127"></a><tt class="py-lineno">127</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-name">allkeys</tt> </tt>
</div><a name="L128"></a><tt class="py-lineno">128</tt>  <tt class="py-line"> </tt>
<a name="value"></a><div id="value-def"><a name="L129"></a><tt class="py-lineno">129</tt> <a class="py-toggle" href="#" id="value-toggle" onclick="return toggle('value');">-</a><tt class="py-line"><tt class="py-keyword">def</tt> <a class="py-def-name" href="SatStress.physcon-module.html#value">value</a><tt class="py-op">(</tt><tt class="py-param">key</tt><tt class="py-op">)</tt><tt class="py-op">:</tt> </tt>
</div><div id="value-collapsed" style="display:none;" pad="+++" indent="++++"></div><div id="value-expanded"><a name="L130"></a><tt class="py-lineno">130</tt>  <tt class="py-line">    <tt class="py-keyword">return</tt> <tt id="link-87" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-87', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
</div><a name="L131"></a><tt class="py-lineno">131</tt>  <tt class="py-line"> </tt>
<a name="sd"></a><div id="sd-def"><a name="L132"></a><tt class="py-lineno">132</tt> <a class="py-toggle" href="#" id="sd-toggle" onclick="return toggle('sd');">-</a><tt class="py-line"><tt class="py-keyword">def</tt> <a class="py-def-name" href="SatStress.physcon-module.html#sd">sd</a><tt class="py-op">(</tt><tt class="py-param">key</tt><tt class="py-op">)</tt><tt class="py-op">:</tt> </tt>
</div><div id="sd-collapsed" style="display:none;" pad="+++" indent="++++"></div><div id="sd-expanded"><a name="L133"></a><tt class="py-lineno">133</tt>  <tt class="py-line">    <tt class="py-keyword">return</tt> <tt id="link-88" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-88', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">3</tt><tt class="py-op">]</tt> </tt>
</div><a name="L134"></a><tt class="py-lineno">134</tt>  <tt class="py-line"> </tt>
<a name="relsd"></a><div id="relsd-def"><a name="L135"></a><tt class="py-lineno">135</tt> <a class="py-toggle" href="#" id="relsd-toggle" onclick="return toggle('relsd');">-</a><tt class="py-line"><tt class="py-keyword">def</tt> <a class="py-def-name" href="SatStress.physcon-module.html#relsd">relsd</a><tt class="py-op">(</tt><tt class="py-param">key</tt><tt class="py-op">)</tt><tt class="py-op">:</tt> </tt>
</div><div id="relsd-collapsed" style="display:none;" pad="+++" indent="++++"></div><div id="relsd-expanded"><a name="L136"></a><tt class="py-lineno">136</tt>  <tt class="py-line">    <tt class="py-keyword">return</tt> <tt id="link-89" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-89', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">4</tt><tt class="py-op">]</tt> </tt>
</div><a name="L137"></a><tt class="py-lineno">137</tt>  <tt class="py-line"> </tt>
<a name="descr"></a><div id="descr-def"><a name="L138"></a><tt class="py-lineno">138</tt> <a class="py-toggle" href="#" id="descr-toggle" onclick="return toggle('descr');">-</a><tt class="py-line"><tt class="py-keyword">def</tt> <a class="py-def-name" href="SatStress.physcon-module.html#descr">descr</a><tt class="py-op">(</tt><tt class="py-param">key</tt><tt class="py-op">)</tt><tt class="py-op">:</tt> </tt>
</div><div id="descr-collapsed" style="display:none;" pad="+++" indent="++++"></div><div id="descr-expanded"><a name="L139"></a><tt class="py-lineno">139</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'Description of '</tt><tt class="py-op">,</tt><tt class="py-name">key</tt><tt class="py-op">,</tt><tt class="py-string">':'</tt> </tt>
<a name="L140"></a><tt class="py-lineno">140</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  Name:               '</tt><tt class="py-op">,</tt><tt id="link-90" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-90', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">0</tt><tt class="py-op">]</tt> </tt>
<a name="L141"></a><tt class="py-lineno">141</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  Symbol (if avail.): '</tt><tt class="py-op">,</tt><tt id="link-91" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-91', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">1</tt><tt class="py-op">]</tt> </tt>
<a name="L142"></a><tt class="py-lineno">142</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  Value:              '</tt><tt class="py-op">,</tt><tt id="link-92" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-92', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">2</tt><tt class="py-op">]</tt> </tt>
<a name="L143"></a><tt class="py-lineno">143</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  Standard deviation: '</tt><tt class="py-op">,</tt><tt id="link-93" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-93', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">3</tt><tt class="py-op">]</tt>  </tt>
<a name="L144"></a><tt class="py-lineno">144</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  Relative stdev:     '</tt><tt class="py-op">,</tt><tt id="link-94" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-94', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">4</tt><tt class="py-op">]</tt> </tt>
<a name="L145"></a><tt class="py-lineno">145</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  value(sd) unit:     '</tt><tt class="py-op">,</tt><tt id="link-95" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-95', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">5</tt><tt class="py-op">]</tt> </tt>
<a name="L146"></a><tt class="py-lineno">146</tt>  <tt class="py-line">    <tt class="py-keyword">print</tt> <tt class="py-string">'  Source:             '</tt><tt class="py-op">,</tt><tt id="link-96" class="py-name"><a title="SatStress.physcon.all" class="py-name" href="#" onclick="return doclink('link-96', 'all', 'link-2');">all</a></tt><tt class="py-op">[</tt><tt class="py-name">key</tt><tt class="py-op">]</tt><tt class="py-op">[</tt><tt class="py-number">6</tt><tt class="py-op">]</tt><tt class="py-op">,</tt><tt class="py-string">'\n'</tt> </tt>
</div><a name="L147"></a><tt class="py-lineno">147</tt>  <tt class="py-line"> </tt><script type="text/javascript">
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